9

I am trying to use Sailfish, which takes multiple fastq files as arguments, in a ruffus pipeline. I execute Sailfish using the subprocess module in python, but <() in the subprocess call does not work even when I set shell=True.

This is the command I want to execute using python:

sailfish quant [options] -1 <(cat sample1a.fastq sample1b.fastq) -2 <(cat sample2a.fastq sample2b.fastq) -o [output_file]

or (preferably):

sailfish quant [options] -1 <(gunzip sample1a.fastq.gz sample1b.fastq.gz) -2 <(gunzip sample2a.fastq.gz sample2b.fastq.gz) -o [output_file]

A generalization:

someprogram <(someprocess) <(someprocess)

How would I go about doing this in python? Is subprocess the right approach?

10

To emulate the bash process substitution:

#!/usr/bin/env python
from subprocess import check_call

check_call('someprogram <(someprocess) <(anotherprocess)',
           shell=True, executable='/bin/bash')

In Python, you could use named pipes:

#!/usr/bin/env python
from subprocess import Popen

with named_pipes(n=2) as paths:
    someprogram = Popen(['someprogram'] + paths)
    processes = []
    for path, command in zip(paths, ['someprocess', 'anotherprocess']):
        with open(path, 'wb', 0) as pipe:
            processes.append(Popen(command, stdout=pipe, close_fds=True))
    for p in [someprogram] + processes:
        p.wait()

where named_pipes(n) is:

import os
import shutil
import tempfile
from contextlib import contextmanager

@contextmanager
def named_pipes(n=1):
    dirname = tempfile.mkdtemp()
    try:
        paths = [os.path.join(dirname, 'named_pipe' + str(i)) for i in range(n)]
        for path in paths:
            os.mkfifo(path)
        yield paths
    finally:
        shutil.rmtree(dirname)

Another and more preferable way (no need to create a named entry on disk) to implement the bash process substitution is to use /dev/fd/N filenames (if they are available) as suggested by @Dunes. On FreeBSD, fdescfs(5) (/dev/fd/#) creates entries for all file descriptors opened by the process. To test availability, run:

$ test -r /dev/fd/3 3</dev/null && echo /dev/fd is available

If it fails; try to symlink /dev/fd to proc(5) as it is done on some Linuxes:

$ ln -s /proc/self/fd /dev/fd

Here's /dev/fd-based implementation of someprogram <(someprocess) <(anotherprocess) bash command:

#!/usr/bin/env python3
from contextlib import ExitStack
from subprocess import CalledProcessError, Popen, PIPE

def kill(process):
    if process.poll() is None: # still running
        process.kill()

with ExitStack() as stack: # for proper cleanup
    processes = []
    for command in [['someprocess'], ['anotherprocess']]:  # start child processes
        processes.append(stack.enter_context(Popen(command, stdout=PIPE)))
        stack.callback(kill, processes[-1]) # kill on someprogram exit

    fds = [p.stdout.fileno() for p in processes]
    someprogram = stack.enter_context(
        Popen(['someprogram'] + ['/dev/fd/%d' % fd for fd in fds], pass_fds=fds))
    for p in processes: # close pipes in the parent
        p.stdout.close()
# exit stack: wait for processes
if someprogram.returncode != 0: # errors shouldn't go unnoticed
   raise CalledProcessError(someprogram.returncode, someprogram.args)

Note: on my Ubuntu machine, the subprocess code works only in Python 3.4+, despite pass_fds being available since Python 3.2.

  • Thanks J.F. Sebastian! It actually worked with the simple subprocess argument executable='/bin/bash' that I was missing before. It works now with this call: check_call('sailfish quant [options] <(gunzip -c file1 file2) <(gunzip -c file3 file4)', shell=True, executable='/bin/bash'). Thank you so much for your help! You really went above and beyond in your answer--you not only helped me solve my problem but also helped me better understand piping in python. – Michelle Mar 5 '15 at 2:10
3

Whilst J.F. Sebastian has provided an answer using named pipes it is possible to do this with anonymous pipes.

import shlex
from subprocess import Popen, PIPE

inputcmd0 = "zcat hello.gz" # gzipped file containing "hello"
inputcmd1 = "zcat world.gz" # gzipped file containing "world"

def get_filename(file_):
    return "/dev/fd/{}".format(file_.fileno())

def get_stdout_fds(*processes):
    return tuple(p.stdout.fileno() for p in processes)

# setup producer processes
inputproc0 = Popen(shlex.split(inputcmd0), stdout=PIPE)
inputproc1 = Popen(shlex.split(inputcmd1), stdout=PIPE)

# setup consumer process
# pass input processes pipes by "filename" eg. /dev/fd/5
cmd = "cat {file0} {file1}".format(file0=get_filename(inputproc0.stdout), 
    file1=get_filename(inputproc1.stdout))
print("command is:", cmd)
# pass_fds argument tells Popen to let the child process inherit the pipe's fds
someprogram = Popen(shlex.split(cmd), stdout=PIPE, 
    pass_fds=get_stdout_fds(inputproc0, inputproc1))

output, error = someprogram.communicate()

for p in [inputproc0, inputproc1, someprogram]:
    p.wait()

assert output == b"hello\nworld\n"
  • your code does: inputcmd | someproc -- it is different from someproc <(inputcmd). btw, you should call inputproc.communicate() instead of inputproc.wait(), to close inputproc.stdout.close() in the parent so that inputproc wouldn't hang if someproc exits prematurely. It is not clear what you are trying to achieve with StreamConnector but it seems bloated. – jfs Mar 4 '15 at 9:44
  • My mistake. I thought <(cmdlist) connected a series of commands stdout to the stdin of the consumer process. The class was meant to cat-like utility for streams rather than files. Answer is much more simple now. – Dunes Mar 4 '15 at 13:08
  • /dev/fd/# or named pipes if the former is unavailable is exactly how bash implements the process substitution. You should close pipes in the parent so that if inputproc1 or inputproc2 die prematurely; someprogram could exit sooner. Otherwise the solution should work on Python 3.4+. I've added an exception-safe version of the code to my answer (just as an exercise). – jfs Mar 4 '15 at 16:34
  • about pipes I meant the other way around: if someprogram dies prematurely then the parent Python script will hang on p.wait() after inputproc[01] fill their OS stdout pipe buffers (~65K on my machine) if you don't close the pipes (inputproc[01].stdout) in the parent. – jfs Mar 5 '15 at 7:53

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